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classify row numbers of a table

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Sanley Guerrier
Sanley Guerrier am 8 Aug. 2023
Kommentiert: Sanley Guerrier am 8 Aug. 2023
Dear experts,
I would like to classify this data by rows, for example:
For every x and y point if the median of that row is T <= -12 classify it as "sunny area"
if the median of that row is -12< T <= -14 classify it as "sun-shade area"
finally, if the median of that row is T> -14 classify it as "shaded area"
I have no idea how to generate a matlab function to do that. Please, can you help with that?
Thank you!

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the cyclist
the cyclist am 8 Aug. 2023
Ran in:
Already a couple different solid answers here, with slightly different methods, but I'm going to post it anyway. One difference with mine is that it keeps everything in a single table:
IMPORTANT NOTE: I did not correct your inequalities as @Voss did. But I believe the same thing he does, that you mixed them up.
% Read the table
tbl = readtable("T.xlsx",'VariableNamingRule','preserve');
% Calculate the median T from the columns, and add it as a column
tbl.medianT = median(tbl{:,["T0","T1","T2","T3","T4","T5","T6"]},2);
% Add an empty column for the sunniness
tbl = addvars(tbl,strings(height(tbl),1),'NewVariableNames','Sunniness');
% Fill in the sunniness for each median range
tbl{tbl.medianT <= -12, "Sunniness"} = "sunny area";
tbl{tbl.medianT > -12 & tbl.medianT <= -14,"Sunniness"} = "sun-shade area";
tbl{tbl.medianT > -14, "Sunniness"} = "shaded area";
disp(tbl)
Distance from CR29 (ft) X (ft) Y (ft) T0 T1 T2 T3 T4 T5 T6 medianT Sunniness _______________________ __________ __________ ______ ______ ______ ______ ______ ______ ______ _______ _____________ 0 2.2645e+06 1.0002e+06 -14.44 -14.44 -14.39 -14.3 -14.5 -14.41 -14.3 -14.41 "sunny area" 1.122 2.2645e+06 1.0002e+06 -14.47 -14.5 -14.41 -14.33 -14.44 -14.39 -14.36 -14.41 "sunny area" 1.6667 2.2645e+06 1.0002e+06 -13.96 -14.33 -14.19 -14.1 -14.59 -14.27 -14.19 -14.19 "sunny area" 6.4009 2.2645e+06 1.0002e+06 -13.99 -14.39 -14.27 -14.24 -14.47 -14.33 -14.24 -14.27 "sunny area" 8.1988 2.2645e+06 1.0002e+06 -14.01 -14.21 -14.16 -14.33 -14.44 -14.36 -14.19 -14.21 "sunny area" 9.6358 2.2645e+06 1.0002e+06 -14.01 -14.16 -13.79 -13.87 -14.36 -14.36 -14.24 -14.16 "sunny area" 11.434 2.2645e+06 1.0002e+06 -14.19 -14.33 -13.79 -14.19 -14.3 -14.24 -14.19 -14.19 "sunny area" 12.867 2.2645e+06 1.0002e+06 -14.19 -14.24 -13.76 -13.53 -14.24 -14.24 -14.21 -14.21 "sunny area" 14.669 2.2645e+06 1.0002e+06 -14.04 -14.04 -13.87 -13.9 -13.93 -14.13 -14.13 -14.04 "sunny area" 16.102 2.2645e+06 1.0002e+06 -14.04 -14.01 -13.73 -13.79 -13.79 -13.73 -13.9 -13.79 "shaded area" 17.402 2.2645e+06 1.0002e+06 -13.82 -14.04 -13.82 -13.79 -13.73 -13.9 -13.87 -13.82 "shaded area" 19.465 2.2645e+06 1.0002e+06 -13.87 -14.01 -13.87 -13.84 -13.67 -13.76 -13.82 -13.84 "shaded area" 21.017 2.2645e+06 1.0002e+06 -14.1 -14.01 -13.87 -13.93 -13.73 -13.45 -13.62 -13.87 "shaded area" 22.569 2.2645e+06 1.0002e+06 -14.01 -14.07 -13.96 -13.99 -13.87 -13.59 -13.64 -13.96 "shaded area" 24.121 2.2645e+06 1.0002e+06 -14.13 -14.19 -14.04 -13.96 -14.1 -13.84 -13.47 -14.04 "sunny area" 26.201 2.2645e+06 1.0002e+06 -14.21 -14.24 -14.19 -14.07 -14.16 -14.07 -13.79 -14.16 "sunny area" 27.74 2.2645e+06 1.0002e+06 -14.39 -14.3 -14.33 -14.13 -14.53 -14.07 -13.82 -14.3 "sunny area" 28.763 2.2645e+06 1.0002e+06 -14.27 -14.41 -14.44 -14.21 -14.59 -14.27 -13.99 -14.27 "sunny area" 30.843 2.2645e+06 1.0002e+06 -14.3 -14.44 -14.41 -14.33 -14.5 -14.39 -14.13 -14.39 "sunny area" 32.395 2.2645e+06 1.0002e+06 -14.36 -14.53 -14.47 -14.3 -14.44 -14.44 -14.1 -14.44 "sunny area" 34.308 2.2645e+06 1.0002e+06 -14.21 -14.3 -14.3 -14.04 -14.39 -14.33 -14.04 -14.3 "sunny area" 35.623 2.2645e+06 1.0002e+06 -14.19 -14.24 -14.19 -14.04 -14.44 -14.36 -14.07 -14.19 "sunny area" 36.919 2.2645e+06 1.0002e+06 -14.24 -14.24 -14.24 -14.24 -14.39 -14.33 -13.99 -14.24 "sunny area" 38.881 2.2645e+06 1.0002e+06 -14.21 -14.3 -14.27 -14.3 -14.53 -14.39 -14.13 -14.3 "sunny area" 40.843 2.2645e+06 1.0002e+06 -14.41 -14.53 -14.41 -14.36 -14.36 -14.27 -14.27 -14.36 "sunny area" 42.159 2.2645e+06 1.0002e+06 -14.44 -14.53 -14.39 -14.33 -14.36 -14.3 -14.27 -14.36 "sunny area" 44.121 2.2645e+06 1.0002e+06 -14.47 -14.5 -14.36 -14.33 -14.47 -14.41 -14.36 -14.41 "sunny area" 44.787 2.2645e+06 1.0002e+06 -14.47 -14.47 -14.3 -14.27 -14.5 -14.44 -14.41 -14.44 "sunny area" 47.398 2.2645e+06 1.0002e+06 -14.41 -14.5 -14.33 -14.3 -14.47 -14.44 -14.27 -14.41 "sunny area"
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the cyclist
the cyclist am 8 Aug. 2023
For any function you use, you need to understand the proper syntax for that function. If you don't know, then you need to read the documentation.
In the specific case of mean, the second argument is the dimension along which the mean is taken. (It is equivalent to how the median is done, not how the standard deviation is done).
Sanley Guerrier
Sanley Guerrier am 8 Aug. 2023
Thanks!

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Weitere Antworten (1)

Steven Lord
Steven Lord am 8 Aug. 2023
Ran in:
Another way to do this, which could be simpler if you have more than 3 categories, is to use discretize.
data = randi([-16, -10], 10, 1); % 10-by-1 array of integers in range [-16, -10]
boundaries = [-Inf, -14, -12, Inf];
categories = ["shaded", "sun-shade", "sunny"];
D = discretize(data, boundaries, 'categorical', categories);
result = table(data, D)
result = 10×2 table
data D ____ _________ -10 sunny -10 sunny -14 sun-shade -14 sun-shade -13 sun-shade -13 sun-shade -15 shaded -13 sun-shade -11 sunny -14 sun-shade

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